Regulating apparatus and system



April 12, 1938.r G. E. ATKlNs 2,113,869

REGULATING APPARATUS AND SYSTEM G. E. ATK/NS BV TTOR/VEV April 12, 19.38. I G. E. ATKlNs 2,113,869

REGULATING APPARATUS AND SYSTEM Filed March 25, 195e 3 shees-sheet 2 THRU G0550 SWITCHES 2/ 0F Roo/w IN/TS I.) G. Ark/N5 A T TURA/EV April 12, 1938.

G. E, ATKINS REGULATING APPARATUS AND SYSTEM m M m m m mm m I /N VEN Tof? G. E A TK/NS A 7' TOR/Vgy Patented Apr. 12, 193s REGULATIG APPARATUS AND* SYSTEMl George E. Atkins, Glen Ridge, N. J., assigner of one-half to Alexander I. Abrahams, New York,

Application March 25, 1936, serial No. 70,786

17 claims.' (c1. 236-11) This invention relates to 4regulating apparatus and systems and more particularly to. regulating apparatus for controlling conditioned air systems of the type wherein heated, cooled or humidii'led air is supplied to a plurality of.. rooms from a central plant. i One object of this invention is to control automatically the supply of heated, cooled or humidified air from a central plant individually to a plurality of rooms whereby the rooms Will be maintained at desired temperatures.

Another object of this invention `is to control automatically the operation of a. central plant so that'when the atmosphere at all of the rooms lnsupplied thereby is `at adesired condition, the energy or fuel consumed at the plant will be at a minimum.

A further object of` this invention is to simplify electrically operated automatic control systems for heating, cooling and humidifying systems whereby the requisite wiring will be made small and the installation thereof expedited.

Still another object of this invention is to simplify; actuating apparatusforI a plurality of control members for heating, cooling and humidifying systems whereby a relatively small installation and maintenance cost will be assured. 1

The invention may be utilized, for example, in aheating system of the hot air type including a 3m, furnace having the usual draft and check, and a plurality of pipes or conduits extending yfrom the `furnace to registers or radiators located, for ex- Lo erable automatically in response to temperature variations-in the corresponding room, to rotate the damper associated therewith, whereby the ow of air to theseveral rooms may be regulated individually. The operation of each of the 45 actuating members is affected, for example,

through a control circuit including a thermostat.

or other temperature responsivel device.

In accordance with another feature ofthis invention another actuating mechanism is provided 5.0 for the draft and check of thefurnace, this member being operable to open the draft and close. thecheck when any one or more of the rooms is below' a desired temperature and toV close the draft and open the check when all of the rooms are at the 55 desired temperatures,

In accordance withafurther feature of ,this invention, the several actuating members are driven by a single power device, such as a motor, means being provided for automatically and individually coupling the actuating members'to the 5,.

power device and uncoupling the members therefrom. l

In accordance with still another feature ofthis invention the coupling means are controllable through the aforesaid control circuits including 10` of rooms and for controlling also theV heating `or cooling plant; I

Fig. 2 is a view in cross ksection of the actuating 25 unit along line 2-2 of Fig. 1;

Fig. 3 is a View partly diagrammatic and partly exploded.` and in perspective, illustrating the'association of one of the actuating members fof the unit shown in Fig. 1 with the supply pipe or con- 30 duit for one room and illustrating also the control circuit for thisV actuating member;

Fig. 4 is a view, also partly diagrammatic and partly exploded and in perspective, illustrating the association of one of they actuating members with the heating plant, and showing also the control circuit for this actuating member;

Fig. 5 is a diagrammatic View of a system illustrative of one embodiment of this invention showing the association of the control circuits` for the heating plant and for the plurality of 'actuating members in the unit shown in Fig.` l; and

Fig. 6 is a View in perspective illustrating an embodiment of this invention in systems having a radiation type heating or cooling plant.

In the drawings, the invention is illustrated as embodied in a regulating system for a plant supplying conditioned fluid to three rooms,'which are referred to as A, B and C. The apparatus associated with each room and the supply conduity therefor is identied by a numeralfollowed by va correspondingone of the letters AB and C.' Inasmuch as various elements of the apparatus are identical, in the` description, whereA feasible, similar elementsI are referredto genericallyonly by.

the designating numeral without the specific letter.

Referring now to the drawings, the temperature regulating apparatus shown therein includes a unitary actuating assembly which, as shown in Figs. 1 and 2, comprises a housing having a body portion I0 and an arcuate portion coaxial with the body portion I0. The housing may be affixed to a heating or cooling plant, such as a hot air furnace I2, by machine screws I3. Enclosed by the housing is a power unit such asa motor I4, which preferably is of the constant speed unidirectional type. The motor I4 drives a shaft I5 through a reduction gear chain, designated generally as I6, the gearing being such that the shaft I5 revolves at a speed of the order of1to3R.P.M.

As indicated in Fig. 4, the furnace I2 is provided with the usual draft I1 and check I8, the latter being mounted upon the ue I9, and is provided also with a plurality of pipes or conduits 26 which lead, for example, to registers or radiators in rooms of a dwelling. The draft I1 and check I8 are connected mechanically by a suitable cable 2|, such as a chain, which passes over suitably mounted guides or pulleys 22. Each of the pipes or conduits 2D is provided with a valve such as a rotatable damper 23, shown clearly in Fig. 3, mounted on a shaft or rod 24 which has` affixed thereto a suitable sprocket 25. Each of the sprockets 25 is connected, as for example, by a chain 26, to a corresponding sprocket 21 loosely mounted upon'the shaft I5, the chains 26 passing through suitable apertures 28 in the housing I6. The several sprockets 21 are aflixed, as by screws 29, to hubs 39 of corresponding discs 3| also loosely mounted on the shaft I5. The sprockets 21 and discs 3| are held in proper position upon the shaft I5 by suitable members such as collars 32 secured to the shaft I5. Disposed adjacent each of the loosely mounted discs 3| Vis a driving disc 33 having a hub 34 suitably secured to the drive shaft I5.

Adjacent each of the driving discs 33 is a strip member or arm 35 which is positioned on the corresponding hub 34, as shown clearly in Fig. 1, and is freely rotatable thereabout. The strip members or arms 35 have mounted thereon a solenoid 36 and a resilient strip 31 which carries a magnetic stud or armature '38 and a pin or stud 39 extending through an aperture in the strip or arm 35. `Leading in conductors 44 for the solenoids 36 extend along the arms 35 and thence to terminal blocks 45 mounted upon the housing I0, II. Each of the arms 35 is provided with an extension or finger 40 carrying a roller` 4|, and has secured thereto a bowed or arcuate spring member 42 axed at one end to a bracket 43 also mounted upon the housing I0, I I.

As shown clearly in Fig. 3, the corresponding discs 3| and 33 are providedv with cooperatively disposed apertures 46 and 41, respectively, arranged adjacent the peripheries of the discs and atintervals of 90 degrees, the apertures 46 and 41 being adapted to receive the studsor pins 39.

As will be apparent, when one of the solenoids 36 is energized, the corresponding stud or armature 38 is drawn into the solenoid so that the associated pin or stud 39 is inserted into corresponding apertures 46 and 41 in the discs 3| and 33 respectively. Consequently, the corresponding arm 35 and discs 3| and 33 are coupled together whereby they may be revolved as a unit.

For purposes .of illustration, it will be assumed that with the arm 35, disc 33 and sprocket 21 in the position indicated in Fig. 2, the corresponding damper 23 is in the position indicated in Fig. 3, namely the closed position. If the motor I4 and solenoid 36 are energized, the corresponding discs 3| and 33, the sprocket 26 and the arm will revolve clockwise through 90 degrees against the action of the spring 42 so that the damper 23 also will rotate 90 degrees to its open position. Upon de-energization of the solenoid 36, in a Ymanner to be described hereinafter, the armature 38 will be raised and the loose disc 3| uncoupled from the driving disc 33. Consequently, the spring 42 will revolve the arm 35 90 degrees in a counterclockvvise direction. If thesolenoid 36 is again energized, the disc 3| and sprocket 21 will be coupled again to the corresponding driving disc 33, and the sprocket 21 Will be revolved another 90 degrees clockwise so that the associated damper 23 will be rotated to its closed position. Upon each subsequent energization of the solenoid 36, the corresponding damper 23 will be rotated 90 degrees clockwise.

Associated with each arm 35 is a double pole double throw switch 48 mounted upon the arcuate portion II of the housing. The push button 49 as shown in Fig. 2, is engaged by a guide member 59 pivoted upon the housing and connected thereto by a spring 5I. The switch 48 is of generally standard construction and of the type wherein two circuits are connected alternately to anI input line by successive depressions of the push button 49. Each switch is actuated by the engagement of the guide member by the roller 4I on the corresponding arm 35 and is provided with six contacts 85 to 9U inclusive.

The switches 48 and solenoids 36 are connected in circuit with a corresponding temperature responsive device 58, such as a thermostat, a relay 59, and source of E. M. F. such as a battery 6U, as described in detail hereinafter. The thermostat, as shown, is provided with a contact blade 6|, an "open contact 62, and a close contact 63. The thermostat may be adjusted or set, of course, sothat the temperature change necessary to changethe blade 6I from engagement with contact 62 to engagement with contact 63 corresponds to any desired range of temperatures desired. l

The draft I1 and check I8 are controllable by a mechanism similar to that described heretofore for the several dampers 23. Referring particularly to Figs. 1 and 4, it will be seen that a disc 64 is loosely mounted upon the disc 66 secured to the shaft I5 and having a hub 61 about which an arm 68 is rotatable. The arm 6B carries a solenoid 69, a roller 16 and a resilient member 1I. Mounted upon the resilient member 1I are an armature 12, adapted to be drawn into the solenoid 69, and a pin 13, adapted to extend into aligned apertures 14 and 15 in the driven disc 64 and driving disc 66 respectively. As shown in Fig. 4, the apertures 14 and 15 in the discs 64 and 66 respectively are diametrically opposite. The arm 68 has affixed thereto a bowed or arcuate spring 16 which is secured at oneY end to a stud 11 carried by a bracket 18 mounted upon the housing I6, the spring 16 being stressed by clockwise rotation of the arm 68. Mounted upon the bracket 18 is a double pole double throw push switch 19, having contacts 80 and 8| and a push button 82, the latter being engaged by a guide arm or member 83 pivoted upon the bracket 18. The guide arm or member 83 is adapted to be engaged by the roller 16 whereby the switch 19 is operated.

When the various elements are in the position 58A' will move toward and engage the close contact 63 ofithis.thermostatand` the solenoid 36Br shown in Fig..4, that is the draft open andthe check closed, and the solenoid 69 isenergized, the driven disc 64 is coupled to the driving disc 66 `and the two vdiscs rotatedthrough 180 degrees clockwise whereby the draft is closedtand the check opened. When the discs havel beenthus rotated, the energizing circuit for the solenoid' I 69 is opened by theswitch 19, as described more 180 degrees clockwise so that the draft opened and the check I8 closed. l

It will be seen from the foregoing that this invention provides an apparatus and system* wherein not only is the delivery of conditioned air to each of avplurality of rooms or the like automatically controlled by a temperature rek sponsive device but also the heating or cooling plant is controllable from a remote point. In addition, as will appear from the following, the

` invention provides a control system wherein theA central plant, such as the furnace, is controlled I automatically so that when all of ther rooms supplied by the central plant are at the desired temperature, the plant is shut off. Consequentlya low fuel consumption and high operating econi responding letters after the identifying numerals.

4'5" desired temperature.

Fig. 5.represents the conditionsrwhen the damper 23 in the pipe to room C is in its closed position, the room beingv at or above the desired tempera-` ture, and the damper in the pipe to room B is in its open position, the room B being below the The renergizing circuits for the solenoids- 39B and 39C,V therefore, vare open.

As to room A, Fig. 5 shows conditionsv at f the 'time the damper in the pipe to this roomis vin its closed position and the temperature'in room A hasreached the desired degree. 'l'hereforay the contact blade 6I of thermostat 58A has just come into engagement with the close contact 63 of this thermostat and a circuit is closed from ground through battery G0, relay 59, `contacts 89 and 81 of switch 48A, and solenoid 35A. Closing of this circuit energizes relay 59 so that the motor Il is connected to the' source Iilandthe shaft I5 revolves. Simultaneously disc SIA corresponding to room A is coupled to its driving disc 33A, and the two rotate 90 degrees clockwise whereby the damper 23A, in the pipe to room A is rotated to its closedvposition, When the discs have thus revolved 90 degrees the rotatable arm 35A associated therewith operates switch 49A so that it is thrown toits closed position as designated in Fig. 5. Thereby the energization circuit through relay 59 and solenoid 36A is interrupted and the relay 59-releases to open the line circuit for the motor I4. Likewise the solenoid 36A is deenergized so that the driven disc 3IA is uncoupl'c'dY When the temperature in room B rises to desired, the contact blade 6I of the thermostat becomes energized through the circuitv including thissolenoid;4 contact 63of thermostat 58B, contacts 81 and 89 of-switch-48B and relay 59 and source 6U. Closing of this circuity will Aresult in rotation of the damper `23 in the pipeffor room B, QOvdegrees clockwise to its closed position and throwing of switch 48B toits closedposition.

When all of the rooms A, B and C are atthe desired temperature it isdesirable, of course, that the rate of fuel consumption by the furnace be decreased. This desiderata is obtained inr systems in accordance with this invention for when all of the rooms are at or above the desired teml perature, the control mechanism for the furnace is actuated to close the draft and open the check. Specifically, it will be seen from Fig. 5 that when all rooms lare at the desired temperature, each of switches 48A, 48B and 48C is in its closed position.` A circuit is thus completed through battery 6|), relay 59, contacts 90 and 85 of switch 48C, contacts 90 and 85 of switch 48B, contacts 99 and 85 of switch 48A, contacts 9I and 93 of switch 19, and solenoid S9. Completion of this circuit results in energization of themotor I4 and rotation of the shaft I 5. 69 is energized so that disc 64 is coupled to disc Simultaneously the solenoid 66 and the two discs and arm 68 rotated clockwise i 180 degrees'whereby .the draft I1 will be closed and 'check I8 opened. Wh'en'the discs 64 and 66 have thus rotated, switch 19is thrown to its closedy position-*by engagement ofthe roller 19 with the degrees -counterclockwise yby the spring 16.

' Whenthe temperature inany room falls the draft-is again opened'and ther check closed.'A For example, "assumefthat the temperature in room C falls below the minimum set. Contact blade 6 Il of thermostat 58C will mov'e'toward and engage contact 62 `of this thermostat and the solenoid 36C and relay 59 are energized through a circuit including battery 60', relay 59, 4contacts 89 and 86 of Switcl'i 48C,`c'ontact 62 of thermostat 58C andi` solenoid 36C. "Asa result, as will be clear from the detailed description hereinabove,v the Idamper fory room C will be rotated vto its open position and switch 48C'will be thrown to its opened position. Such operation of the switch 48C will close a circuit through solenoid 69, contacts 93 and 80 of switch 19, contacts 88 and 99 of switch 48C, relay 59 and source 60. Upon completion of this circuit, as will be` clear from the description heretofore, the disc 64 willbe rotated 180 degrees Clockwise to yopen the draft I1 and close the check imilarly, if room B is the one in which the temperature falls, the contact blade 6I of thermostat 58B will engage the 4open contact 62. Consequently'the solenoid' 69 will be energized through anlobvious circuit including contacts'i and 99 of switch 48B, contacts 85and 99 of switch 49C, and

the, source 60. As a resultgthe draft I1 of-the furnace will be opened and the rate -of combustion in 'thefurnace increased to quickly supply heated air i0 roem B- l, Iiikewis'e, if room A is` the one` in which the Such operation of` the switch 19 highly' be opened. In this case, the solenoid 69 is energized through a circuit including contacts and 93 of switch 19, contacts 88 and 90 of switch 48A,

contacts and 90 of switches 48B and 48C and source 60.

It will be apparent, of course, that whenever the temperature of any room has fallen suflciently to result in opening of the furnace draft as described heretofore, the solenoid 6.9 does not become energized when the temperature in other rooms falls below that desired. The solenoid 69 remains deenergized until, as pointed out heretofore, all of the rooms are at a desired temperature whereupon energization of the solenoid 69 occurs and closing of the draft Il results.

Although the invention has been described hereinabove in a heating systemA including a hot air furnace, it will beunderstood, of course, that it may be utilized in a heating system of the hot air type including an oil burner. In such application, as indicated in Fig. 5, the oil burner motor may be connected in series with the source 9| through the contacts 92 and 94 of switch 19, being in circuit when any of the rooms is below the desired temperature and out of circuit when all of the rooms are at or above the desired temperature.

The invention may be used to advantage also in cooling systems. Such systems, as illustrated in Fig. 6 may include a control chamber 95 into which air may be forced as by a fan, not shown. The chamber 95 is provided with a plurality of pipes or conduits 96, only one of which is shown, in each of which there is a rotatable damper 23. The dampery 23 may be rotated by the same mechanism and control system as the damper 23 in Fig. 3.

The air forced intothe chamber 95 is passed over a radiator 91 which may be composed of number of tubes connected at one end to an outlet pipe 98 and at the other end to an inlet pipe 99 and may have a suitable cooling medium circulated therethrough. The tubes of the radiator may have a flat spiral ribbon secured thereto edgewise in order to increase the heat absorbing surface thereof. rIhe control circuit for the cooling system willbe the same as that illustrated in Fig. 5 except that the connections to the thermostats will be reversed so that the various dampers will be in the open position when the temperature of a room rises above a certain temperature and will be in the closed position when the temperature falls below the lowest desired. The fan for forcing air into the chamber 95 may be connected in circuit with the source 9i through contacts 92 and 94 of switch 19, Fig. 5, the arrangement being such, of course, that the fan is rendered inactive when all of the rooms are at at least a desired low temperature.

It may be pointed out also that the structure illustrated in Fig. 6 may be used in a heating system in which case a heating medium is circulated through the radiator 91.

Although the invention has been described hereinabove with reference to a system wherein heated or cooled air is supplied from a control plant to a plurality of points, it will be clear, of course, that it may be utilized also in hot water, steam or vapor systems. In such cases the various valves 23 would be operable to control the flow of steam, hot water or vapor from the central plant to the radiators located at desired points.

Furthermore, although a control system and temperature falls, the draft for the furnace will apparatus for three ro'oms have been described,

the invention may be practiced in systems for a may be utilized in humidifying systems in which case humidostats would be employed in place of the thermostats.

Finally, it will be understood, of course, that although specific embodiments of the invention have been shown and described, various modifications may be made therein without departing from the scope and spirit of this invention as defined in the appended claims.

What is claimed is:

1. In a heating system including a hot air furnace having a draft and check, pipes extending from said furnace for distributing heated air to a plurality of rooms, a damper in each of said pipes, a single driving member, means for coupling each of said dampers to said driving member, means including a thermostat in each of said rooms for operating said coupling, a rotatable member connected to said draft and -said check, means for coupling said rotatable member to said driving member, and means controlled by said operating means for actuating said second coupling means when all of said rooms are at or above desired temperatures.

2. In a conditioned fluid system including a source of conditioned fluid, a plurality ofy conduits for distributing conditioned uid from said source to a plurality of points, and a valve in each of said conduits, a control apparatus comprising a shaft, means for revolving said shaft, driving members aixed to said shaft, driven members loosely mounted on said shaft and each coupled to one of said valves, a plurality of clutches each adapted to couple one of said driven members to the corresponding driving member, and means including thermostats at each of said points for controlling said clutches whereby said valves are actuated in accordance with temperature variations at said points to control the flow of conditioned fluid individually to said points.

3. In a conditioned air system including a plant for producing conditioned air, control means for said plant, a pipe for conveying conditioned air from said plant, and a valve in said pipe, regulating apparatusA comprising a pair of driving members, common. means for actuating said members, a pair of driven members one cooperatively related with each of said driving members, means coupling one of said driven members to said valve, means coupling the other of said driven membersto said control means, means for coupling each of said driven members to the corresponding driving member, a control system including a thermostat for actuating said coupling means, and means controlled by said control system for energizing said common means when said coupling means are actuated.

4. In a conditioned air system including a plant for producing conditioned air, means for regulating the rate of production of conditioned air at said plant, a plurality of pipes for conveying conditioned air from said plant to a plurality of rooms, and a valve in each of said pipes, aV

regulating system comprising a iplurality of driven members each coupled to one of said valves, a driven member coupled to said regulating means, a plurality of driving members, each associated with a corresponding one of said driven members, means for actuating said driving members, a plurality of electro-magnetically operable clutches each-.adapted to coupleone of y said drivenmembers to the 'corresponding `driv- `ing member, and a` control system including a source of El. M. F., `a thermostat at -each of `said rooms, each thermostat being.. electrically associated with said source and acorresponding. one of ysaid clutches for" said plurality of driven members, and meansfor electricallyponnecting theclutch for theregulatng means driving and driven members 4in circuit with saidV source and said thermostats, and means `for energizing said actuating means in responseto actuation ofamr of said clutches.,

5. In a conditioned air system including a central plant 'for producingl conditioned air, a plurality of. pipes for distributing,.conditioned air kfrom said plant to, a plurality of rooms, means for regulating said plant., and .a valve in each of `said pipes, a control system includinga' shaft, means for` rotatingy Said shaft, a plurality of driven discs mounted loosely onrsaid `shaft and each coupled to a corresponding Aone, .ofsaid valves, a driven discmountedon said; shaft and `coupled to said regulating means, `means for rotating said shaft, meansfor coupling each of said discs to said shaft,` a control system includving a thermostat at'eachof saidrooms for actu- -ating said .coupling means whereby said` rst discs are coupled individually `to said driving means, and means associated with said thermostats for selectively coupling said second driven disc to said driving means.

6. In a conditioned air system including a cenvtral plant for producing conditioned air, a plurality of pipes for distributing conditioned air from said plant to a'plurality of rooms, control means for said plant, and a valvein eachof said pipes, regulating ,l apparatus including` a` power means, actuating members for saidrvalves, an actuating member for said control means, means includingv a plurality of thermostats disposed one `in reach of the roomsffor connecting.

said rst actuating members individually to said power means whereby said valves are actuated individuallyk to increase, and vdecrease `the flow of air to said rooms in accordance with variations in the temperatures of said rooms, and

` means controlled by said thermostats `and op- ,-erable when all of said rooms are at desired temperatures to coupley said second actuating member to said power means whereby said control means is operated to render said plant substantially inoperative.

7. In ka regulating system including a source of conditioned uid, a conduit for conveying conditioned Iiuid from said source to a room, and a valve in said conduit, means for actuating said Valve comprising a rotatable member coupled to said valve, driving means for said member including a motor, a supply circuit for said motor "including a switch, an electrically operated clutch conduit, regulating apparatus comprising a shaft;

means for revolving said shaft, a disc affixed to said shaft, a driven disc loosely mounted on saidshaft, said discs having corresponding apertures therein, meansV coupling said driven disc to said valve, clutch vmeans forr coupling said discs together includinga member mounted on said shaft, a pin resiliently mounted on said member and adapted to extend into corresponding apertures in said discs, electrically operated means for inserting said pin into said corresponding apertures, and .a control circuit for said electrically operated means including circuit controlling means in said room.

i` 9. In a conditioned air system including a source of conditioned air, a conduit for conveying air from said source to a room, and a valve in said conduit, means for operating said valve comprising a shaft, means for revolving said shaft, a driven disc loosely mounted on said shaftand coupled to said valve, a driving disc adjacent said driven disc and aflixed to said shaft, said discs `having juxtaposed angularly spaced apertures, an arm member loosely mounted` onsaid shaft, a retractile spring coupled to said arm member and adapted to be stressed by rotation thereof in one direction, a pin resiliently mounted on said arm member and adapted i to be inserted into corresponding of said aper- `said pin is withdrawn froml said aperture-s.

- 10. In a temperature regulating system comprisinga central plant,` a plurality of pipes extending from said plant to a plurality of points and-a valvelin each of said pipes, means for actuating said valves comprising a plurality of rotatable members each coupled to one of said valves, common driving means for revolving said members, a plurality of electric clutches for individually coupling said members to said driving means; and control means for said clutches including a thermostat at each of said points, one in circuit with each of said clutches, a source of E. M. F. and a plurality of switches each in circuit with said lsource and a corresponding one of said thermostats, said switches being operable in response to the rotation of said rotatable members through predetermined arcs to open and close alternatelythe circuits in which they are included.

11. In a conditioned air system, a central plant,

` a plurality of pipes for conveying air from said plant to a plurality of rooms, and a valve in each of said pipes, means for actuating said valves comprising a plurality of rotatable members each coupled to one of said valves, a common driving means for said members, a plurality of clutches for coupling said members individually to said driving means, a control means including a plurality of thermostats disposed one at each room for individually actuating said clutches in response to temperature variations at said rooms, andmeans controlled `by said control means for actuating said driving means whenever any one of said rooms is at other than a predetermined temperature.

l2. In a conditioned air system including a plant for producing conditioned air, a conduit for conveying conditioned air from said plant to a point removed therefrom, a rotatable damper in said conduit, and rotatable means at said plant for controlling the rate of production of conditioned air thereby, regulating means comprising a motor, an energizing circuit for said motor, a shaft coupled to said motor, m-eans for connecting said damper and said rotatable means individually to said shaft, means including a control element at said point for actuating said connecting means, and means responsive to operation of said actuating means for controlling said energizing circuit.

13. A conditioned fluid system comprising a plant for producing conditioned fluid, a control member at said plant, and regulating means including a shaft, a rotatable member loosely mounted on said shaft and coupled tov said control member, driving means for revolving said shaft in one direction, a second rotatable member loosely mounted on said shaft, a clutch carried by said second rotatable member for coupling both said rotatable members to said shaft, control means for actuating said clutch, and means responsive to rotation of said rotatable members through a predetermined arc in said one direction to release said clutch.

14. A conditioned fluid system comprising a plant for producing conditioned fluid, a control member at said plant, and regulating means including a. rotatable member coupled to said control member, driving means for revolving said rotatable member in one direction, a second rotatable member, a clutch carried by said second rotatable member for coupling both said rotatable members to said driving means, control means for actuating said clutch, means responsive to rotation, of said rotatable members through a predetermined arc in said one direction to release said clutch, and means operable upon release of said clutch to rotate said second rotatable member through an equivalent arc in the opposite direction.

l5. A conditioned fluid system comprising a plant for producinglconditioned fluid, a control member at said plant, and regulating means including a rotatable member coupled to said control member, driving means for revolving said rotatable member in one direction, a second rotatable member, a clutch carried by said second rotatable member for coupling both said rotatable members to said driving means, control means for actuating said clutch, means responsive to rotation of said rotatable members through a predetermined arc in saidone direction to release said clutch, and means actuable by said clutch control means for energizing said driving means.

16. A conditioned iiuid system comprising a plant for producing conditioned fluid, a controlf member at said plant, and regulating means including a rotatable member coupled to said control member, driving means for revolving said rotatable member in one direction, a second predetermined arc in said one direction to re-` lease said clutch, means actuable by said clutch control means for energizing said driving means, and means responsive to rotation of said rotatable members through said predetermined arcv to deenergize said driving means.

17. In a regulating system including a source of conditioned fluid, a conduit for conveying fluid from said source to a room, and a valve in said conduit, regulating apparatus comprising a shaft, means for revolving said shaft, a driving member aflixed to said shaft, a driven member loosely mounted on said shaft adjacent said driving member and having an aperture therein, means coupling said driven member to said valve, clutch means for coupling said driving and driven members including a third member mounted on said shaft, a pin resiliently mounted on said third member and adapted to extend through said aperture and to engage said driving member, electrically operated means for inserting said pin thro-ugh said aperture, and a control circuit for said electrically operated means including circuit controlling means at said room.

GEORGE E. ATKINS. 

